Methods for reducing the junction temperature between an IC chip and its lid by including metal spacers in the TIM layer and the resulting devices are disclosed. Embodiments include providing a substrate, including integrated circuit devices, having front and back sides; forming vertical spacers on the backside of the substrate; providing a plate parallel to and spaced from the backside of the substrate; and forming a TIM layer, surrounding the vertical spacers, between the backside of the substrate and the plate.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A method comprising: providing a substrate, including integrated circuit devices, having front and back sides; forming a seed layer on the back side of the substrate; forming vertical spacers spaced from each other, in rows and columns on the seed layer, each vertical spacer having a first end contacting the seed layer and a second end opposite the first end in a vertical direction from the seed layer, wherein forming the vertical spacers comprises: electroplating vertical structures on the seed layer through a mask layer; and removing exposed sections of the seed layer, exposing sections of the back side of the substrate; providing a plate parallel to and spaced from the back side of the substrate; and forming a thermal interface material (TIM) layer, surrounding the vertical spacers, between the back side of the substrate and the plate, wherein every vertical spacer surrounded by the TIM layer extends from the first end to the second end with no intervening structure between the first end and the second end.
2. The method according to claim 1 , comprising forming the vertical spacers to a height less than a thickness of the TIM layer.
3. The method according to claim 1 , comprising forming the vertical spacers to a height connecting the back side of the substrate to the plate.
4. The method according to claim 1 , comprising forming the vertical spacers based on properties of the TIM layer.
5. The method according to claim 1 , comprising forming the vertical spacers having dimensions and spacing based on a thermal dissipation target associated with the substrate.
6. The method according to claim 1 , comprising forming the vertical spacers of a metallic material.
7. The method according to claim 1 , wherein the plate is a heat dissipating surface.
8. A method comprising: providing a substrate, including integrated circuit devices, having front and back sides; forming a seed layer on the back side of the substrate; forming metallic vertical spacers, on the seed layer, spaced from each other in rows and columns, each metallic vertical spacer having a first end contacting the seed layer and a second end opposite the first end in a vertical direction from the seed layer, wherein forming the vertical spacers comprises electroplating vertical structures on the seed layer through a mask layer; and removing exposed sections of the seed layer, exposing sections of the back side of the substrate; providing a plate parallel to and spaced from the back side of the substrate; and forming a thermal interface material (TIM) layer, surrounding the metallic vertical spacers, between the back side of the substrate and the plate, wherein every metallic vertical spacer surrounded by the TIM layer extends from the first end to the second end with no intervening structure between the first end and the second end.
9. The method according to claim 7 , comprising forming the metallic vertical spacers having dimensions and spacing based on a thermal dissipation target associated with the substrate, properties of the TIM layer, or a combination thereof.
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September 14, 2016
December 11, 2018
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